Egocentric Activity Recognition on a Budget

Rafael Possas, Sheila M. Pinto-Caceres, F. Ramos
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引用次数: 37

Abstract

Recent advances in embedded technology have enabled more pervasive machine learning. One of the common applications in this field is Egocentric Activity Recognition (EAR), where users wearing a device such as a smartphone or smartglasses are able to receive feedback from the embedded device. Recent research on activity recognition has mainly focused on improving accuracy by using resource intensive techniques such as multi-stream deep networks. Although this approach has provided state-of-the-art results, in most cases it neglects the natural resource constraints (e.g. battery) of wearable devices. We develop a Reinforcement Learning model-free method to learn energy-aware policies that maximize the use of low-energy cost predictors while keeping competitive accuracy levels. Our results show that a policy trained on an egocentric dataset is able use the synergy between motion and vision sensors to effectively tradeoff energy expenditure and accuracy on smartglasses operating in realistic, real-world conditions.
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预算中的自我中心活动识别
嵌入式技术的最新进展使机器学习更加普及。该领域的一个常见应用是自我中心活动识别(EAR),用户戴着智能手机或智能眼镜等设备,能够接收来自嵌入式设备的反馈。近年来对活动识别的研究主要集中在利用多流深度网络等资源密集型技术来提高识别精度。尽管这种方法提供了最先进的结果,但在大多数情况下,它忽略了可穿戴设备的自然资源限制(例如电池)。我们开发了一种无模型的强化学习方法来学习能源感知策略,最大限度地利用低能源成本预测器,同时保持具有竞争力的准确性水平。我们的研究结果表明,在以自我为中心的数据集上训练的策略能够利用运动和视觉传感器之间的协同作用,有效地权衡智能眼镜在现实世界条件下的能量消耗和准确性。
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